McMaster Mass Compilation 08
Compilers: Balraj Singh, Ervin Thiagalingam, McMaster Univ., CanadaContact: Balraj Singh; ndgroup@mcmaster.ca
Date: November 12, 2013
Compiled Data from papers during November 1, 2012 to November 12, 2013
References:
NSR Keyno Citation Author Title Method Facility 2013StAA PRC 88, 054304 J. Stanja et al. "Mass spectrometry and decay spectroscopy Penning Trap ISOLTRAP-ISOLDE-CERN of isomers across the Z=82 shell closure" 2013Kw01 Ann.Phys.(Berlin) A.A. Kwiatkowski et al. "Mass measurements of singly and highly charged radioactive Penning trap TITAN-ISAC-TRIUMF 525, 529 ions at TITAN: A new QEC-value measurement of 10C" 2013Ya03 Astr. Jour. Lett. X. L. Yan "Mass measurement of 45Cr and its impact on the Ca-Sc cycle Mass Spectrometry HIRFL-CSR 766, L8 in X-ray bursts" 2012He13 EPJA 48, 97 A. Herlert et al. "Recoil-ion trapping for precision mass measurements" Penning Trap ISOLTRAP-ISOLDE-CERN 2013Ka08 PRC 87, 024307 A. Kankainen et al. "Isomeric states close to doubly magic 132Sn studied with Penning trap JYFLTRAP-IGISOL the double Penning trap JYFLTRAP" 2013Va12 PRL 111, 061102 J. Van Schelt et al. "First Results from the CARIBU Facility: Mass Measurements Penning trap CPT-CARIBU-ANL on the r-Process Path" 2013Sh30 PRC 88, 024310 D. Shubina et al. "Schottky mass measurements of heavy neutron-rich nuclides in Mass Spectrometry FRS-ESR-GSI the element range 70<=Z<=79 at the GSI Experimental Storage Ring" 2013Bu12 PRC 88, 025501-R S. Bustabad et al. "First direct determination of the 48Ca double-beta decay Q value" Penning trap LEBIT-NSCL 2013It01 PRC 88, 011306-R Y. Ito et al. "Single-reference high-precision mass measurement with a Mass Spectrometry MRTOF-RIKEN multireflection time-of-flight mass spectrograph" 2013El01 PRL 110, 082501 S. Eliseev et al. "Phase-Imaging Ion-Cyclotron-Resonance Measurements for Penning Trap SHIPTRAP-GSI Short-Lived Nuclides" 2013Dr04 EPJA 49, 13 C. Droese et al. "High-precision mass measurements of 203-207Rn and 213Ra Penning Trap SHIPTRAP-GSI with SHIPTRAP" 2013Li01 PRL 110, 012501 D.L. Lincoln et al. "First Direct Double-beta Decay Q-Value Measurement of 82Se Penning trap LEBIT-NSCL in Support of Understanding the Nature of the Neutrino" 2012Ga45 PRL 109, 202503 L. Gaudefroy et al. "Direct Mass Measurements of 19B, 22C, 29F, 31Ne, 34Na and TOF SPEG-GANIL Other Light Exotic Nuclei" 2013Wi06 Nature 498, 346 F. Wienholtz "Masses of exotic calcium isotopes pin down nuclear forces" Penning Trap ISOLTRAP-ISOLDE-CERN 2013Fr13 PL-B 722, 233 D. Frekers "Penning-trap Q-value determination of the 71Ga(nu,e-)71Ge reaction Penning Trap TITAN-ISAC-TRIUMF using threshold charge breeding of on-line produced isotopes" Note: masses are now given with difference from the AME 2012 dataset [M. Wang et al., Chinese Physics C 36 (2012) 1603] NUCLIDE LEVEL- ENERGY HALF-LIFE SPIN-PARITY MEASURED MASS AME-2012 MASS MEASURED - REFERENCE (keV) EXCESS (keV) EXCESS (keV) AME(2012) 7Li 0 stable 3/2- 14911.4(42) 14907.105(4) 4.3 2013It01: PRC 88, 011306-R 8Li 0 839.40 ms 2+ 20947.6(37) 20945.80(5) 1.8 2013It01: PRC 88, 011306-R 9Be 0 stable 3/2- 11352.6(36) 11348.45(8) 4.2 2013It01: PRC 88, 011306-R 19B 0 2.92 ms 3/2-(sys) 59770(350) 58780(sys) 990 2012Ga45: PRL 109, 202503 20C 0 16 ms 0+ 37360(270) 37560(240) -200 2012Ga45: PRL 109, 202503 22C 0 6.2 ms 0+ 53640(380) 53590(250) 50 2012Ga45: PRL 109, 202503 22N 0 24 ms 31110(260) 32040(190) -930 2012Ga45: PRL 109, 202503 23N 0 13.9 ms 1/2-(sys) 36720(280) 38320(sys) -1600 2012Ga45: PRL 109, 202503 27F 0 4.9 ms 5/2+(sys) 25450(260) 24630(190) 820 2012Ga45: PRL 109, 202503 29F 0 2.5 ms 5/2+(sys) 40150(350) 39630(sys) 520 2012Ga45: PRL 109, 202503 30Ne 0 7.3 ms 0+ 23310(280) 23040(280) 261 2012Ga45: PRL 109, 202503 31Ne 0 3.4 ms 7/2-(sys) 31440(310) 30820(1620) 620 2012Ga45: PRL 109, 202503 33Na 0 8.2 ms (3/2+) 23780(300) 23970(sys) -190 2012Ga45: PRL 109, 202503 34Na 0 5.5 ms 1+ 31680(400) 31290(sys) 390 2012Ga45: PRL 109, 202503 41Ti 0 82.6 ms 3/2+ -15698(28) -15698(28) 0 2013Ya03: Astr.J. Lett. 766:L8 43V 0 79.3 ms 7/2-(sys) -17916(43) -17920(40) 4 2013Ya03: Astr.J. Lett. 766:L8 43S 0 265 ms 3/2-(sys) -12130(220) -12195(5) 65 2012Ga45: PRL 109, 202503 44S 0 100 ms 0+ -9340(280) -9204(5) -136 2012Ga45: PRL 109, 202503 45Cl 0 413 ms 3/2+(sys) -17790(220) -18360(100) 570 2012Ga45: PRL 109, 202503 45Cr 0 60.9 ms 7/2- -19515(35) -19510(40) -5 2013Ya03: Astr.J. Lett. 766:L8 46Cl 0 232 ms -14010(280) -13810(160) -200 2012Ga45: PRL 109, 202503 47Mn 0 88.0 ms 5/2-(sys) -22566(32) -22570(30) 4 2013Ya03: Astr.J. Lett. 766:L8 47Ar 0 1.23 s (3/2)- -25060(190) -25210(90) 150 2012Ga45: PRL 109, 202503 49Fe 0 64.7 ms (7/2-) -24751(24) -24751(24) 0 2013Ya03: Astr.J. Lett. 766:L8 51Ca 0 10.0 s (3/2)- -36332.07(58) -36339(22) 6.5 2013Wi06: Nature 498, 346 52Ca 0 4.6 s 0+ -34266.02(71) -34260(60) -6.0 2013Wi06: Nature 498, 346 52Ca 0 4.6 s 0+ -34271.7(102) -34260(60) -11.7 2013Wi06: Nature 498, 346 53Ca 0 461 ms 3/2-(sys) -29387.8(433) -28460(sys) -928 2013Wi06: Nature 498, 346 53Ni 0 55.2 ms 7/2-(sys) -29631(25) -29631(25) 0 2013Ya03: Astr.J. Lett. 766:L8 54Ca 0 90 ms 0+ -25161.0(486) -24780(sys) -381 2013Wi06: Nature 498, 346 55Cu 0 27 ms 3/2-(sys) -31635(156) -31640(160) 5 2013Ya03: Astr.J. Lett. 766:L8 121mCd 215(4) 8.3 s (11/2-) -80858.7(26) -80858.9(19) 0.2 2013Ka08: PRC 87, 024307 123mCd 144(4) 1.82 s 11/2-(sys) -77271(3) -77271(3) 0 2013Ka08: PRC 87, 024307 125mCd 186(5) 480 ms 11/2-(sys) -73162(4) -73162(3) 0 2013Ka08: PRC 87, 024307 129mIn 459(5) 1.23 s (1/2-) -72379(4) -72379(3) 0 2013Ka08: PRC 87, 024307 130mSn 1948(5) 1.7 m 7- -78185(3) -78186.0(21) 1 2013Ka08: PRC 87, 024307 130In 0 290 ms 1(-) -69652(20) -69880(40) 228 2013Va12: PRL 111, 061102 130Sn 0 3.72 m 0+ -80130.8(36) -80132.9(21) 2.1 2013Va12: PRL 111, 061102 131mIn 365(8) 350 ms (1/2-) -67660(8) -67660(7) 0 2013Ka08: PRC 87, 024307 131Sn 0 56.0 s 3/2+ -77230(4) -77272(6) 42 2013Ka08: PRC 87, 024307 131In 0 280 ms (9/2+) -67876(35) -68025.6(27) 149.6 2013Va12: PRL 111, 061102 131Sn 0 56.0 s 3/2+ -77259.6(43) -77272(6) 12.5 2013Va12: PRL 111, 061102 131Sb 0 23.03 m (7/2+) -81986(10) -81981.9(21) -4.1 2013Va12: PRL 111, 061102 132Sn 0 39.7 s 0+ -76549.0(28) -76543.9(29) -5.1 2013Va12: PRL 111, 061102 132Sb 0 2.79 m (4)+ -79633.8(61) -79635.6(27) 1.8 2013Va12: PRL 111, 061102 133Sn 0 1.46 s (7/2-) -70869.1(36) -70874.2(24) 5.1 2013Va12: PRL 111, 061102 133Sb 0 2.34 m 7/2+(sys) -78921.3(76) -78923(3) 1.7 2013Va12: PRL 111, 061102 133Te 0 12.5 m 3/2+(sys) -82899.8(65) -82932(4) 32.3 2013Va12: PRL 111, 061102 133mTe 342(4) 55.4 m (11/2-) -82595.8(24) -82598(4) 2 2013Ka08: PRC 87, 024307 133I 0 20.83 h 7/2+ -85858.2(64) -85887(5) 28.4 2013Va12: PRL 111, 061102 134Sn 0 1.050 s 0+ -66444(16) -66432(3) -12 2013Va12: PRL 111, 061102 134Sb 0 780 ms (0-) -74012(10) -74020.5(17) 8.5 2013Va12: PRL 111, 061102 134mSb 281(4) 10.07 s (7-) -73740.0(29) -73741.5(20) 1.5 2013Ka08: PRC 87, 024307 134I 0 52.5 m (4)+ -84040.8(64) -84059(6) 18.3 2013Va12: PRL 111, 061102 135Sn 0 530 ms 7/2-(sys) -60584(34) -60632(3) 48 2013Va12: PRL 111, 061102 135Sb 0 1.679 s (7/2+) -69693.9(65) -69689.6(29) -4.3 2013Va12: PRL 111, 061102 135Te 0 19.0 s (7/2-) -77729.6(21) -77727.9(27) -1.7 2013Va12: PRL 111, 061102 135I 0 6.58 h 7/2+ -83778.9(20) -83789(5) 10.1 2013Va12: PRL 111, 061102 136Sb 0 923 ms 1-(sys) -64491(15) -64510(6) 19 2013Va12: PRL 111, 061102 136Te 0 17.63 s 0+ -74423.3(37) -74425.8(24) 2.5 2013Va12: PRL 111, 061102 137Sb 0 484 ms 7/2+(sys) -60061(52) -60030(300) -31 2013Va12: PRL 111, 061102 137Te 0 2.49 s 3/2-(sys) -69301.7(37) -69304.2(25) 2.5 2013Va12: PRL 111, 061102 138Te 0 1.4 s 0+ -65695.3(76) -65696(4) 0.7 2013Va12: PRL 111, 061102 139Te 0 500 ms (sys) 5/2-(sys) -60191(17) -60205(4) 14 2013Va12: PRL 111, 061102 139I 0 2.282 s 7/2+(sys) -68470.7(40) -68459(29) -11.7 2013Va12: PRL 111, 061102 140Te 0 300 ms (sys) 0+ -56577(62) -56357(28) -220 2013Va12: PRL 111, 061102 140I 0 860 ms (4-) -63606(13) -63600(180) -6 2013Va12: PRL 111, 061102 141I 0 430 ms 7/2+(sys) -59927(16) -59900(sys) -27 2013Va12: PRL 111, 061102 142Cs 0 1.684 s 0- -70506.9(93) -70518(7) 10.9 2013Va12: PRL 111, 061102 143Cs 0 1.791 s 3/2+ -67676.3(79) -67674(22) -2.3 2013Va12: PRL 111, 061102 144Cs 0 994 ms 1(-) -63256(31) -63271(25) 15 2013Va12: PRL 111, 061102 145Cs 0 582 ms 3/2+ -60057(16) -60056(11) -1 2013Va12: PRL 111, 061102 146Cs 0 323 ms 1- -55323.2(86) -55570(40) 246.8 2013Va12: PRL 111, 061102 181Hf 0 42.39 d 1/2- -47412(40) -47405.3(19) -6.7 2013Sh30: PRC 88, 024310 181Lu 0 3.5 m 7/2+(sys) -44797(126) -44800(160) 3.0 2013Sh30: PRC 88, 024310 181Ta 0 stable 7/2+ -48383(40) -48441.6(18) 59 2013Sh30: PRC 88, 024310 182Ta 0 114.74 d 3- -46466(29) -46433.2(18) -33 2013Sh30: PRC 88, 024310 183Ta 0 5.1 d 7/2+(sys) -45276(16) -45296.1(19) 20 2013Sh30: PRC 88, 024310 183Lu 0 58 s (7/2+) -39716(80) -39720(90) 4.0 2013Sh30: PRC 88, 024310 184W 0 stable 0+ -45663(17) -45707.6(9) 44.5 2013Sh30: PRC 88, 024310 185Ta 0 49.4 m (7/2+) -41350(14) -41396(14) 46 2013Sh30: PRC 88, 024310 185Hf 0 3.5 m 3/2-(sys) -38320(64) -38320(90) 0 2013Sh30: PRC 88, 024310 186W 0 stable 0+ -42493(12) -42510.8(15) 17.8 2013Sh30: PRC 88, 024310 186Hf 0 2.6 m 0+ -36424(51) -36420(50) -4.0 2013Sh30: PRC 88, 024310 187W 0 24.0 h 3/2- -39863(8) -39906.3(15) 43.3 2013Sh30: PRC 88, 024310 187Ta 0 2.3 m 7/2+(sys) -36896(56) -36900(70) 4.0 2013Sh30: PRC 88, 024310 188Os 0 stable 0+ -41115(12) -41139.3(15) 24.3 2013Sh30: PRC 88, 024310 188Ta 0 19.6 s -33612(55) -33610(70) -2 2013Sh30: PRC 88, 024310 189Re 0 24.3 h 5/2+ -38063(10) -37981(8) -82.3 2013Sh30: PRC 88, 024310 189W 0 10.7 m 3/2-(sys) -35618(40) -35620(40) 2.0 2013Sh30: PRC 88, 024310 190Os 0 stable 0+ -38637(15) -38709.4(16) 72.4 2013Sh30: PRC 88, 024310 190W 0 30.0 m 0+ -34388(41) -34380(40) -8.0 2013Sh30: PRC 88, 024310 190Tl 0 2.6 m 2(-) -24378(10) -24380(sys) 2 2013StAA: PRC 88, 054304 190mTl 89(12) 3.7 min 7(+) -24289.3(64) -24289(6) 0 2013StAA: PRC 88, 054304 191Re 0 9.8 m (3/2+,1/2+) -34364(3) -34352(10) -12.0 2013Sh30: PRC 88, 024310 191Ir 0 stable 3/2+ -36650(71) -36710.8(19) 60.8 2013Sh30: PRC 88, 024310 191W 0 20 s (sys) 3/2-(sys) -31176(42) -31180(40) 4.0 2013Sh30: PRC 88, 024310 192Os 0 stable 0+ -35833(8) -35883.9(27) 50.9 2013Sh30: PRC 88, 024310 192Re 0 16.0 s -31589(71) -31590(80) 1.0 2013Sh30: PRC 88, 024310 193Os 0 29.830 h 3/2- -33329(8) -33396.0(27) 67.0 2013Sh30: PRC 88, 024310 193Re 0 20 s (sys) 5/2-(sys) -30232(39) -30240(40) 8.0 2013Sh30: PRC 88, 024310 194Pt 0 stable 0+ -34779(24) -34762.6(9) -16.4 2013Sh30: PRC 88, 024310 194Tl 0 33.0 m 2- -26937(14) -26937(14) 0 2013StAA: PRC 88, 054304 194mTl 260(15) 32.8 m (7+) -26677.2(38) -26677(4) -0.2 2013StAA: PRC 88, 054304 194Bi 0 95 s (3+) -16032(8) -16040(sys) 8 2013StAA: PRC 88, 054304 194mBi 184(12) 115 s (10-) -15848(9) -15849(8) 1 2013StAA: PRC 88, 054304 195Os 0 6.5 m 3/2-(sys) -29512(56) -29510(60) -2.0 2013Sh30: PRC 88, 024310 196Pt 0 stable 0+ -32655(4) -32646.9(9) -8.1 2013Sh30: PRC 88, 024310 196Au 0 6.1669 d 2- -31126(4) -31139.9(30) 13.9 2013Sh30: PRC 88, 024310 198At 0 4.21 s (3+) -6715(6) -6720(sys) 5 2013StAA: PRC 88, 054304 198mAt 287(12) 1.09 s (10-) -6428(10) -6429(8) 1 2013StAA: PRC 88, 054304 202Fr 0 300 ms (3+) 3097(11) 3090(sys) 7 2013StAA: PRC 88, 054304 202mFr 281(17) 290 ms (10-) 3378(13) 3381(10) -3 2013StAA: PRC 88, 054304 203mRn 362(5) 26.9 s (13/2+) -5783(28) -5797(24) 14 2013Dr04: EPJ-A 49: 13 204Rn 0 74.5 s 0+ -7969(15) -7983(15) 14 2013Dr04: EPJ-A 49: 13 205Rn 0 170 s 5/2- -7698(9) -7710(50) 12 2013Dr04: EPJ-A 49: 13 206Rn 0 340 s 0+ -9139(10) -9115(15) -24 2013Dr04: EPJ-A 49: 13 206Ac 0 25 ms (3+) 13467(32) 13462(sys) 5 2013StAA: PRC 88, 054304 206mAc 240(40) 41 ms (10-) 13707(24) 13710(30) -3 2013StAA: PRC 88, 054304 207Rn 0 555 s 5/2- -8685(26) -8635(8) -50 2013Dr04: EPJ-A 49: 13 213Ra 0 164 s 1/2- 342(11) 358(21) -16 2013Dr04: EPJ-A 49: 13 Notes: 2013Sh30: systematic uncertainty of 38 keV not included. 2013Ka08: 131Sn: measured mass excess for g.s.+ 65.1 keV isomer=-77262(20) keV NUCLIDES LEVEL- ENERGY HALF-LIFE SPIN-PARITY MEASURED AME-2012 MEASURED - REFERENCE (keV) (parent) (parent) (parent) Q(EC)(keV) Q(EC)(keV) AME-2012 10C->10B 0 19.306 s 0+ 3648.34(51) 3648.06(7) 0.28 2013Kw01: Ann. Phys. (Berlin) 525, 529 71Ge->71Ga 0 stable 3/2- 233.5(12) 232.64(22) 0.86 2013Fr13: PL-B 722, 233 190mTl->190Hg 89(12) 3.7 min 7(+) 7081(17) 7081(17) 0 2013StAA: PRC 88, 054304 194Tl->194Hg 0 33.0 m 2- 5247(14) 5246(14) 1 2013StAA: PRC 88, 054304 194mTl->194Hg 260(15) 32.8 m (7+) 5507(5) 5507(5) 0 2013StAA: PRC 88, 054304 198At->198Po 0 4.21 s (3+) 8758(18) 8750(SY) 8 2013StAA: PRC 88, 054304 NUCLIDES LEVEL- ENERGY HALF-LIFE SPIN-PARITY MEASURED AME-2012 MEASURED - REFERENCE (keV) (parent) (parent) (parent) Q(B-)(keV) Q(B-) (keV) AME-2012 61Mn->61Fe 0 670 ms (5/2)- 7178(4) 7178(3) 0 2012He13: EPJA 48, 97 62mMn->62Fe 0 671 ms (4+) 10697(4) 10697(4) 0 2012He13: EPJA 48, 97 63Mn->63Fe 0 275 ms 5/2-(sys) 8750(7) 8749(6) 1 2012He13: EPJA 48, 97 NUCLIDES LEVEL- ENERGY HALF-LIFE SPIN-PARITY MEASURED AME-2012 MEASURED - REFERENCE DAUGHTER (keV) Q(2B) (keV) Q(2B) AME-2012 48Ca->48Ti 0;0 53 Ey;stable 0+;0+ 4268.121(79) 4267.0(4) 1.12 2013Bu12: PRC 88, 022501-R 82Se->82Kr 0;0 97 Ey;stable 0+;0+ 2997.9(3) 2996.4(15) 1.5 2013Li01: PRL 110, 012501 Other: 2013El01 129Xe-130Xe mass difference: 2013El01